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Low resistance electrical contacts to few-layered MoS<sub>2</sub> by local pressurization

Yolanda Manzanares-Negro, Jiamin Quan, Maedeh Rassekh, Mohammed Moaied, Xiaoqin Li, Pablo Ares, J. J. Palacios, Julio Gómez‐Herrero, Cristina Gómez‐Navarro

20232D Materials12 citationsDOIOpen Access PDF

Abstract

Abstract The performance of electronic and optoelectronic devices is dominated by charge carrier injection through the metal–semiconductor contacts. Therefore, creating low-resistance electrical contacts is one of the most critical challenges in the development of devices based on new materials, particularly in the case of two-dimensional semiconductors. Herein, we report a strategy to reduce the contact resistance of MoS 2 via local pressurization. We fabricated electrical contacts using an atomic force microscopy tip and applied variable pressure ranging from 0 to 25 GPa. By measuring the transverse electronic transport properties, we show that MoS 2 undergoes a reversible semiconducting-metallic transition under pressure. Planar devices in field effect configuration with electrical contacts performed at pressures above ∼15 GPa show up to 30-fold reduced contact resistance and up to 25-fold improved field-effect mobility when compared to those measured at low pressure. Theoretical simulations show that this enhanced performance is due to improved charge injection to the MoS 2 semiconductor channel through the metallic MoS 2 phase obtained by pressurization. Our results suggest a novel strategy for realizing improved contacts to MoS 2 devices by local pressurization and for exploring emergent phenomena under mechano-electric modulation.

Topics & Concepts

Materials scienceSemiconductorContact resistanceOptoelectronicsElectrical contactsElectric fieldElectrical resistance and conductanceCabin pressurizationElectrical resistivity and conductivityElectronicsNanotechnologyElectrical engineeringComposite materialEngineeringPhysicsLayer (electronics)Quantum mechanics2D Materials and ApplicationsNanowire Synthesis and ApplicationsMolecular Junctions and Nanostructures
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